Box setting up machine



Feb. 9, 1960 A. H. LLOYD BOX SETTING UP MACHINE 10 Sheets-Sheet 1 Filed May 24, 1954 INVENTOR. ALLEN h'. LLoYo W ifea/'nj Feb. 9; 1960 Filed May 24, 1954 10 Sheets-Sheet 2 INVENTOR. ALLEN H. LLoYD Hceorfrey Feb. 9, 1960 A. H. LLOYD 2,924,156

Box SETTING up MACHINE Filed may 24. 1954 1o sheets-sheet s INVENTOR.

ALLEN H Lam Anon; e y

Feb. 9, 1960 Filed May 24 1954 A. H. LLOYD 2,924,156

Box'sETTING uP MACHINE 10 Sheets-Sheet 4 l//lll/l/ll/ IN VEN TOR.

ALLEN H LLovo A Harpe] Feb. 9, 1960 A. H. LLOYD 2,924,156

Box SETTING UP MACHINE Filed May 24, 1954 1o sheets-sheet s llo? INVENTOR.

ALLEN H. LLovn Arbonyg Feb 9, 1950 A. H. LLOYD 2,924,156

Box SETTING UP MACHINE Filed May 24, 1954 1o sheets-sheet e 35e l l 2 4L-r f L l /4 l T l 26s I 45 L l 26 l I a '3V' I l I T 308 Il 0 ses "'nl* l Tf: 32s g 315 .'l o y. 349/ z; 3/2 3,4 E:

/64 I 3,7 all, MH l nl Il HH' INVENTOR. ALLE/v #Lm ro fluoryq] Feb. 9, 1960 A. H. LLOYD 2,924,156

Box SETTING UP MACHINE Filed may 24, 1954 A 1o sheets-sheet 'r agg) Html/ye] YII'IIIIIIIIIIIIIIIL Feb. 9, 1960 A. H. LLOYD 2,924,156

BOX SETTING UP MACHINE Filed May 24, 1954 lO Sheets-Shea?I 8 F @.EE. IT @E5 100 ,08 T-! 96 la7 9H ZZ MZ INVENTOR. ALLE/v H.Lz.oYo

Febk. 9, 1960 A. H. LLOYD 2,924,156

BOX SETTING UP MACHINE Filed May 24, 1954 l0 Sheets-Sheet 9 INVENTOR.

Aufslv H LA .OYD

Auorpcj Feb. 9, 1960 A. H. LLOYD Box SETTING UP MACHINE l0 Sheets-Sheet 10 Filed May 24, 1954 INVENTOR. ALLEN H LLovo.

eforpg United States Patent O Box SETTING UP MACHINE i Allen H. Lloyd, Terrace Park, Ohio, assignor to Tech- This invention relates to a box setting-up machine, that is, a machine for setting up knocked-down blanks into a box or carton for subsequent filling.

The machine of the present invention is an improvement on the box setting-up machines disclosed in applicants applications Serial Nos, 362,350, filed June 17, 1953, which issued as Patent No. 2,883,915, dated April 28, 1959, and 375,504, filed August 20, 1953, which issued as Patent No. 2,882,803, dated April 21, 1959. v

The machine of the present inventionis for setting up blanks that have been cut to a predetermined configuration and are suitably scored to indicate where the various folds are to occur, that is, the side walls, end walls, tucking aps, and the like. Basically, the blank is scored along the edges of the bottom panel and which scores integrally connect extensions which are in turn scored to form the side and end walls, whether of single thickness, double thickness, or spaced apart Wall members. In addition, the extensions may be provided with tabs at the ends of said walls, or wall members, which are to be arranged with respect to the remaining walls for cooperation therewith in holding the Walls in erected positions.

The machine of the present invention is adapted for transferring a knocked-down blank from a magazine or supply to forming mechanism which sets up the knockeddown blank and cooperates with additional means for completing the erection of the knocked-down blank and transferring same from the machine to a container, discharge conveyor, or the like. The setting up of fthe knocked-down blank to a fully erected carton is automatic from the removing of the blank from the magazine or supply to the discharging thereof as an erected box from the machine.

It is, therefore, the principal object of the present invention to provide a machine for automatically setting up the walls and tucking aps of a box from a knockeddown blank and discharging same in its fully erected position from the machine.

Another object of the present invention is the provision of an improved machine for setting up a knocked-down box blank in which the walls are provided with a depending inner wall member and wherein the machine automatically inwardly folds said wall members.

Another object of this invention is the provision of an improved machine that, through simplified mechanism, automatically and in timed relationsets up the side and end walls of a four-sided box into operative positions and with tucking aps of certain walls automatically arranged with respect to the side and end walls of the carton.

A further and specic object of this invention is the provision of a box setting up machine in which the knocked-down box blanks are automatically transferred from a magazine or supply to the forming mechanism, the said knocked-down box blankautomatically set up, and the setup box automatically removed from the forming mechanism and discharged from the machine.

A still further object of the present invention is the provision of a simplified means for operating or actuating rice the setting-up mechanism which actually erects the box walls.

A still further object of the present invention is thev provision of a simple yet extremely eflicient mechanism for supplying knocked-down box blanks to the setting-up mechanism and which supplying mechanism may be termed a magazine.

A still further and specific object of the present invention is the provision of a machine for accomplishing the foregoing objects and in which the setting-up mechanism may be readily changed for adapting the machine for different sizes and specific construction of boxes.

It is also an object of the present invention to provide an improved transfer mechanism whereby the same iS" properly positioned with respect to a knocked-down box supply or magazine for picking up a singlebox blank.

Other objects and advantages of the present invention should be readily apparent by reference to the following specification considered in conjunction with the accompanying drawings forming a part thereof and it islto be understood that any modifications may be made in the exact structural details there shown and described, within the scope of the appended claims, without departing from or exceeding the spirit of the invention.

In the drawings:

Fig. 1 is a side elevational View of the box setting-up machine of the present invention.

Fig. 2 is a top plan view of the machine illustrated in Fig. l.

Fig. 3 is a horizontal sectional view through the machine of Fig. 1 as seen from line 3 3 on said Fig. l.

Fig. 4 is an enlarged fragmentary vertical sectional view through a portion of the machine as seen from line 4 4- on Fig. 1.

Fig. 5 is a fragmentary sectional view taken on line 5 5 on Fig. 4.

Fig. 6 is a fragmentary vertical sectional View taken through a plane offset from that of Fig. 5 on line 6 6 on Fig. 4.

Fig. 7 is a fragmentary sectional view taken at anglesl to Fig. 6 on line 7 7 on said Fig. 6.

Fig. 8 is an enlarged fragmentary sectional view taken through the transfer head operating mechanism as seen from line 8 8 on Fig. 1.

Fig. 9 is a sectional view taken at right angles to Fig. 8 as seen from line 9 9 on said Fig. 8.

Fig. 10 is an lenlarged fragmentary sectional View through the knocked-down box blank sides setting up mechanism as seen from line 10-10 on Fig. l.

Fig. 11 is a fragmentary elevational view taken on line 11 11 on Fig. 10, disclosing details in the construction of the setting-up mechanism.

Fig. 12 is a top plan view of the knocked-down blank box sides setting-up mechanism as disclosed in Fig. 10.

Fig. 13 is a fragmentary horizontal sectional view through the knocked-down blank box Vsides setting-up mechanism as seen from line 13 13 on Fig. 10.

Fig. 14 is an enlarged sectional view, through the actul ating mechanism for the box wall setting-up plate, taken on line 14-14 on Fig. l0, and disclosing details in the construction thereof.

Fig. 15 is a fragmentary sectional view through the knocked-down box blank sides setting up mechanism takenat right angles to Fig. 10, as seen from line 15 15 on said Fig. 10.

Fig. 16 is a vertical sectional view taken on line 16-16 on Fig. 10 and showing details in the construction of a clamp mechanism forming a detail of the invention.

Fig. 17 is an enlarged fragmentary horizontal sectional View through the operating shaft for the box discharge mechanism as seen fromline 17-17 onFig. 1.

Fig. 18 is a vertical sectional view through the discharge head as seen from line 18-18 on Fig. 17.

Fig. 19 is a vertical sectional view taken at right angles to` FigflS'as seen from line 19%19 on said Fig. 18.

Fig. 20 Iis a vertical sectional View similar to Fig. ,1'8`

taken: in ar plane to the left of said Fig. 18v as seen from line 20'-20 on Fig.` 19. t n

Fig. 2l is an enlarged horizontalv sectional view as seen from line 21-21 on Fig, 20.

Fig. 22 is a transverse sectional -view through the knockedadown blank supply magazine as seen from line 22`221on Fig. 1. s p

Fig. 23- is a fragmentary longitudinal sectional view through. the knocked-downV blank supply magazine as seen from line 23 -23 on Fig. 2.

Figi., 24 isran enlarged fragmentary sectional View through the knocked-down blank magazine feedv lock as seen fromline 24-24 on` Fig. 2 and forming a detail of the. construction.,r

Fig. 25` is a front elevational view of a portion of the disclosure in Fig. 1 illustrating a modilication in the compensating meansof the transfer mechanism.

Fig. 264 is aV side elevational View of the mechanismdisclosed in Fig. 25 as seen from the right `hand side t Fig. 27 is` a. vertical` sectional view through the partsvr of Fig, 25 as seen from line 27-27 on said Fig. 25.7

Fig. 28 is a plan view of a box blank partly inits final;knocked-down'position and partly in extended form and illustrating a form of` a box to he set up orerected by,y the machine of:y the present invention.

VFig. 29 is a transverse sectional view through Ya fully knocked-downblank and in the form inwhich itis sup-Y illustrating the condition of said blank when supplied to the-lmachine for erection.

Eig; 33 istL a; perspective view of a partially erected' box from the knocked-down blank of Figs. 31 and 32.

r` Fig., 34:Y is an enlargedfragmentary sectional view through the discharge mechanismactuating shaft as seen from line;=.34-.34fon Fig. 1.

. Throughout'the `several views of the drawingssimilar reference characters are-employed to denote theA same or similar parte j Y Before specifically describing the box or carton settingup machine, it is deemed advisable to describe the type` of box or carton which may be set up bythe machine of the present invention, there is illustrated in thedrawmgstwo types of boxes, one of which has its side and end walls of double thickness-.whilethe other has itsside and end walls of spaced apart inner and outer wall members. Itis tobe understood that while these` specicfboxes or cartons are illustrated in the drawings and are to be1 now described in relative detail that this is merely by way of example of various types of boxes Vor cartons that mayV be set'up and are not to be regarded as the onlyjboxes erectable on the present machine.

Specifically, and referring to, Figs. 28, 29 and 30, the box there illustrated is formed of a single blank and comprises a, bottom panel 35 having its edges defined by score orA fold lines 36,37, 38 and 39. For purposes of description the score or fold lines 37 and 39` maybe regarded'as the carton sides and each score or fold line ntegrallyhingedly connects with the bottom panel sa.k similar-extension 40 which forms the carton. side walls,`-

as presently-wi1lbe made clear..V VThe remaining .score 4 or fold lines 36 and 38- may be regarded as-the ends ofthe carton andrespectively integrally hingedly. connects with the carton bottom 35 an extension 41, which 1n the erected carton forms the end walls thereof.

The side wall extensions are substantially ident1cal, wherefore it is deemed sufficient if but one of them be described in detail. Accordingly, the extension. 40 1s provided betweenY itshinge `or fold line 39, with the bottom panel, and its outer end, with parallel score or foldlines 42, 43 and 44 for providing in the said extension, panels- 45, 46,' 47 and 48. The panel 45 has its ends defined by score or fold lines 49 and the panel in the erected carton forms the side wall outer wall member. The panel 46-hvasV its ends defined by cut lines 50 in alignment with the score or fold lines 49 and said panel 46 forms inthe erected carton the side wall top wall member. The panel 47 has its ends defined by` scoreor fold lines 51 which are` in alignmentywith the cut' lines 50 and! the said panel 47 `in the erected carton forms the side wall inner wall'v member. The panel 49 isoa length substantially equal to the length of the side wall innerwall member or panel` 47 and in the erected carton constitutes a glue lap for hingedly securing the lower edgeof"V the inner wallmember orpanel `47 to the bottomfpanel 35;

The side wall members, respectively, through their end scores `49irand 51 havef integrally hingedly connected therewith tucking aps- 524 and `53.` The tucking llaps- 52 and 53 at each end of ea'ch side wall has intermediate them a tucking iiap` panel 54, normally o1?` a Width substantially equal to the` width of the top wall or panel 46,' with itslinner end-55 spaced from the'cut end 50 of` the sideiwall top wall member or panel 46. The tucking-,ap panel` 54 is provided with a projecting tongue or` lug 56 thatis cut from the tucking ap 53 thereby `supplying thesaid panel` 54` with a` width essentially greater than.. the side wall top wall member or panel 46. The" tucking ap 531 hasl its inner end definedby a score or fold line 57 thereby providing a hinge panel 58 between the.. said tucking'flap 531 and end of the side wall inner wall member 51; j

Theend` walls extensions being substantially identical it is deemed suiicienttif but one of them be described in detail, and accordingly, said extension is provided be r tween its: score or.` fold` line with the bottom panel and the outer` end!` thereof with parallelscore or fold lines 59, 60 and"61` therebyforming in `said extension panels 62,-63,..641and'65'. The panels 62 and 63 each have a t length/substantially equalto the width of the` bottom panel 35 andin the erected carton form thefend wall` outerwallimember and end wall'ltop wall member; Thez panel1641jhas a lengthshorter than panels 62 and 63* Ysince'it isjtofbe disposed between the side walls inner wall"members when erected. t. The panel 64 has outwardly projecting fromits outer corners,` locking lugsf` 66 `which cooperate with slits or slots 67 formed in the sideuwallsiinnerwalllmembers or panels 47. The remainingendwall extension' panel 65 constitutesa spacer ap. for. spacing the lower end` of the end wall inner wall member from thefouter wallf member 62, a distance subt stantiallyequal `to the "widthfof'ithe endwall top wall` member or panelf63. s s j It? willffbel noted that the" side walls `topmwall members or p'anels-46fare of `less width than the end wall top wall membersorpanels`63 `wherefore the erected carton has end wallsg'of'greater width4 than `side walls as clearly illustrated'iinjFig. 30. s It is for this `reason that the tucking-:flapstoppane1s54"are provided with the projecting.`

lugj56i1whichj establishes the `width ofthe end walls. Cooperating with saidendfjwalls spacer lugs` 56 the side walls topf wallmembers are each provided with `a` lug.`

68 Ltwliichjis cut'fom theinner wall member to project, uponjerectionof the box'or` carton, into the carton with their edges` in.. alignment with the jsaidf` ,spacer' lug.` 561i for;

.spacing the `ends ofthe v end walls inner wall members` 'from the outer wall members and to provide a means on which the setting up machine may fold the end wall inner wall members in positioning the same.

After the blank has been cut and scored in accordance with the lower side wall extension and end wall aps aS illustrated in Fig. 28, adhesive is applied to the glue ap 48 and the extensions 40 respectively folded on the score or fold line 42 to bring said extensions to the position illustrated for the upper extension in said Fig. 28. The side wall extensions '40 are now each in the position illustrated in Fig. 29. It is in this position that the knockeddown blanks are supplied to the setting-up machine, as illustrated for example in Figs. 1 and 22.

The box and blank illustrated in Figs. 31, 32 and 33, as noted above, dilfers from that just described principally in that its side and end walls are of double thickness and not of spaced apart inner and outer wall members. In addition, the said box or carton is provided with a slightly dilferent locking means for holding the erected .side and end walls in operative positions.

Briey and specifically, the box in Figs. 31, 32 and 33 comprises a bottom panel 35 bounded by score or fold lines 36, 37, 38 and 39 respectively, constituting the sides and ends of said bottom panel and'integrally hingedly connecting therewith side wall extensions 40 and wall t extensions 41.

The extensions 40 are each provided with a longitudinal score or fold line 69 thereby providing side walls outer wall members or panels 70 and inner wall members or panels 71. The inner Wall members or panels 71 each has its ends, in part, dened by a score or fold line 72 and in part by an angular or bias cut line 73. Each score or fold line 72 integrally hingedly connects with the panel 71 a tucking ap 74 While each angular or bias cut line 73 constitutes a portion of the Wall locking mechanism as will be presently made clear.

The end wall extensions 41 are each provided with a pair of parallel score or fold lines 75 and 76 thereby providing end walls each having an outer wall member or panel 77 and an inner wall member or panel 78 together with a terminal panel or creeper flap 79. Each of the end walls inner wall members or panels 78 has a portion of each of its ends defined by a score or fold line 80 for integrally hingedly connecting therewith a locking lug 81. As will be seen, the locking lugs are each triangular shaped for co-operation with the angular or bias cut 73 of the side walls inner Wall members in locking the box in its erected condition.

The end walls outer wall members and the side walls outer wall members each has its ends defined by a score or fold line through which they are connected through a corner piece S2 which is provided with a diagonal score or fold line 83. The corner pieces 82 are each adapted to be folded on the diagonal score or fold line 83 in a bellowwise fashion and are therefore known in the trade as bellows corners.

After the blank has been cut and scored as just described, adhesive is applied to the exposed surface, as in Fig. 31, of the side wall inner Wall member or panel 71 whereupon the said panel is folded on the score or fold line 69 into engagement with the panel or side wall inner Wall member 70. The knocked-down blank is 110W in the condition as illustrated in Fig. 32 and it is in this condition that it is supplied to the Setting-up machine for erection.

As will be obvious from Fig. 33, the setting up of the box side walls results in a triangular cut-away portion at the lower corners of the inner wall members and that the setting up of the end walls disposes the triangular locking lugs 81 into said triangular cut-away portions, thereby locking the parts in their erected positions. It should be noted that the insertion of the triangular locking lugs 81 is in reality a snap action since the said locking lugs tend to assume their normal outward positions.

The mechanism for setting up the knocked-down box blank, that is, positioning the side walls, end walls and tucking flaps with respect to the bottom panel, comprises a bed 85 from the four corners of which upwardly project corner posts 86, 87, 88 and 89. The bed 85 may take any suitable or desirable form, that shown in the drawings being formed from a rectangular sheet of metal with the four sides thereof downwardly bent to form anges each having its end edge secured to the adjusting end edge of the adjacent flange. Intermediate the length Of the bed 85, it is provided with additional upstanding posts 90 and 91.

The posts 90 and 91 and the right hand posts 85 and 86 support between them the knocked-down blank magazine or supply indicated in general by the reference numeral 92.

The intermediate posts 90 and 91, in addition, support the knocked-down blank transfer mechanism indicated in its entirety by the reference numeral 93, while the left hand posts 8S and S9 support for operation the erected box discharge mechanism, indicated in its entirety by the reference numeral 94.

The end and intermediate posts 85-91 between them support a shelf which, similar to the bed 85, may take any suitable or `desirable form, but preferably is formed yfrom a rectangular sheet of metal having its ends and sides downwardly turned for strength and rigidity and 'for attachment to the said corner and intermediate posts 86-91. The shelf 95 at a point substantially midway between the transfer mechanism 93 and discharge mechanisrn 94, supports the box set up mechanism, per se, indicated in its entirety by the reference numeral 96.

The magazine or knocked-down blank supply and feeding mechanism comprises a pair of longitudinal members 97 and 9S preferably in the form of angle irons, each having its inner end respectively secured to one of the intermediate posts and having its outer end respectively secured to one of the corner posts 86 and 87. It will be noted from Fig. 1 that the angle irons 97 and 98 are downwardly inclined from the right hand end of the machine, as seen in Figs. l and 2, toward the center thereof. Disposed on each of the angle irons 97 and 98 is a rectangular supporting plate 99 and 100 which, per se, support the magazine proper.

The magazine proper comprises a pair of elongated bars 101 and 102 each having its inner end welded or otherwise secured to a forward transverse brace 103, and said bars 101 and 102 each has its other or outer end welded or otherwise secured to a rear transverse brace 104. The transverse braces 103 and 104 may take any suitable or desirable form, preferably, however, they are in the form of channel irons, as illustrated in the drawings.

Secured to each of said longitudinal members 101 and 102, which are in effect cylindrical bars, to depend therefrom are supports or legs 105 and 106. Each of the supports or legs 105 and 106 is provided at its lower end with an adjustable or extensible mounting pin 107 adapted to be disposed in a suitable aperture 108 in the rectangular supporting plates 99 and 100. It should be here noted that the legs or supports 105 and 106 are adjustable lengthwise of the bars 101 and 102 and since the mounting pins 107, at the ends of said legs, are outwardly adjustable, the said magazine is adjustable with respect to the machine and in order to properly position the knocked-down blanks of the magazine with respect to the transfer head, all of which will be obvious hereinafter.

Upstanding from one end of the upper side of the trans- -verse brace 103, as seen in Fig. 2, are posts 109 and 110, while upstanding from the other end of said transverse brace are posts 111 and 112. Similarly the transverse brace 104 has upstanding from one end of its upper side, again as seen in Fig. 2, a pair of posts 113 and 114 while the other end of said transverse brace 104 has upstanding therefrom posts 115 and 116. Each of the posts has its upper end turned inwardly as seen most clearly in Fig.

. 7 22 with the inner ends ofthe posts 109 and 113 having secured thereto a longitudinal bar 117 and with the similar ends of posts 112 and 116 having secured thereto a longitudinal bar 11S which is parallel with but laterally spaced from the bar 117. The ends of the posts 110 and 114 carry between them a longitudinal bar 119 which is parallel with the bar 117 but in a plane below that of said bar 117. The ends of the posts 111 and 115 carry between them a longitudinal bar 122 which is in the plane of the bar 119 but spaced below the plane o-f the bar 118. Each of the bars 117-12@ is provided at its end that projects ahead of the posts 1695112 with an enlarged head 121 and which head constitutes or forms a stop for the supply of knocked-down blanks in the magazine.

Secured to the forward transverse brace 163 and rearwardly projecting from points intermediate the bars 1112 are bars 122 and` 123 which constitute or form a track- Way for the backup and feed plate for the knocked-down blank supply. The backup and feed plate is indicated in general by the reference numeral 124 and comprises a plate member 125 of an area closely resembling that of the bottom panel of the knocked-down blank, for example, the knocked-down blank of the carton or box illustrated in Figs. 30, 31 and 32 and indicated in Figs. 1, 2, 22 and 23 by the reference numeral 126. The backup and feed plate 125 has depending from it arms 127 and 128 carrying at their lower end a transverse brace 129. The transverse brace 129 is provided with suitable antifriction sliding bearings 130 and 131 which are mounted on and receive the trackway bars 122 and 123.

As will be seen from Fig. l, the said trackway bars 122 and 123 upwardly incline the same as the magazine wherefore the backup and feed plate 124 descends by gravity toward the center of the machineand its transfer mechanism 93 for thereby maintaining the supply of knocked-down blanks 126 at their inner end ofthe magazine and maintain the innermost knocked-down blank against the enlargements 121 of the supporting bars 117- 120. As will be seen from Fig. 22, the said magazine supporting bars 117-1261 are disposed in the corners of the knocked-down blanks where the side and end walls extensions outwardly project from the knocked-down blank center panel.

It should be noted that the posts 199416, together with their knocked-down blank supporting bars 117- 129 are readily removable from the transverse braces 163 and 194 for replacement by other and similar posts and supporting bars for adapting the magazine for 'knockeddown blanks of different sizes and configuration not specically limited in Figs. 31-33 as for example, for accommodating the knocked-down blank illustrated in Figs. 2S-30.

The backup and -feed plate 124 is adapted to be rendered inoperative during the time that the magazine is being loaded and any suitable or desirable means may be employed for this purpose. The means illustrated in the drawings comprises a stud 132 rearwardly projecting from the backupl and feed plate brace 129 with said stud having at its outer end a tapered head 132 with a vertical shoulder 133 immediately forwardly of said head. Secured to the magazine supporting transverse brace 194 at a point, in line with the stud 102, is a spring pressed latch 134 disposed in a suitable housing 135 with said latch having integral therewith or secured thereto, an actuating knob 136.

` lt is believed that the operation of the foregoing mechanism is obvious from the drawings since a manual retraction of the backup and feed piate 124 to the upper or outer end of `the magazine will cause the stud 132 to have its head 132 depress the latch 134 and snap behind the shoulder 133 for retaining the same in a fully retracted position. Upon a loading or reloading of the magazine with box blanks 125, the latch 134 is released, whereupon the said backup and feed plate will remove by gravity on the trackway bars 122 and 123 to the posi- Cil tion'for engagement with the knocked-down blank'supply and will continuously feed said knocked-down blanksto the forward end ofthe magazine as fast as they are removed by the transfer mechanism.

As was noted above `the shelf supports the box setting up mechanism which is to the left of the knockeddown blank supply or magazine, as seen in Fig. 1, while the transfer mechanism is located between the said setting up mechanism and magazine and is carried by the intermediate uprights 90vand 91 above the box setting-up mechanism. The said box transfer mechanism 93 comprises a driving shaft 137, illustrated most clearly in Figs. 3 and 4 and journaled in bearings 138 carried by and depending from the setting up mechanism supporting shelf or bracket 95. The shaft 137 is held against axial movement relative to the bearings 138 by` any suitable or desirable means and has keyed or otherwise secured thereto at a point, preferably intermediate the bearings 138, a sprocket` 139.

140 which in turn extends around a sprocket 141 keyed or otherwise secured to an oscillatable shaft 142` which forms the actuating shaft of the transfer mechanism and is clearly illustrated in Fig. 4. The sprocket chain 140,l

after passing around sprocket 139, has its one end 143 connected, through a stud 144 to` a linger 145 and said sprocket chain 140, after passing around sprocket 141, has its other end 146 connected, through a stud 147,

to a linger 148. The lingers and 143 are secured to and laterally project from a reciprocating frame 149.`

The reciprocating frame 149 and its fingers 145 and 148 through the sprocket chain 140 and sprockets 139 and 141 form, in effect, a reciprocating flexible rack for actuating the drive shaft and oscillating the actuating shaft of the transfer` mechanism.

The mechanism for actuating the reciprocating frame 149 maytake any suitable or desirable form, that shown in the drawings being 4in the form of, what may be termed, a cross-head since it is operated by a crank, and

which cross-head is indicated in its entirety by the reference numeral 151).` The cross-head comprises a pair of guide posts 151 and 152 upstanding from the bed 85 and on each of which posts is mounted a sleeve 153 and 154. The sleeves are eachprovided interiorly with anti-friction bearings 155 and said sleeves are connected -with one another by means of a front strap plate 156 and a rear strap plate 157. The sleeves 153 and 154 together with the strap plates 156 and 157 constitute the reciprocating cross-head 150 and is guided by the posts 151 and 152. It is to this cross-head that the reciprocating frame 149 is` connected through the agency of the frame uprights or longitudinal members 15S and 159.

The cross-head 150substantiallyrnidway of its length is provided with a pin 169 on which is journaled the upper end of a connecting rod 161. The lower end of the connecting rod 161 is journaled to a crank pin 162 outwradly projecting from a crank arm 163. The crank arm 163 is keyed or otherwise secured to shaft 164 projecting from' one side of a speed reducer 165. The speed reducer 165 may, and in effect does, constitute a crank shaft for operating the cross-head. The speed reducer 165, crank shaft, has connected therewith a pulley 166 actuated through a belt 167 from a suitable source of motive power, an electric motor, disposed on the bed 85, i

as illustrated in Fig. 1.

The transistor mechanism `92' is operable from a position ahead of the magazine or supply 92, where it picks up the front or innermost box blank, to a position over` its actuating shaft 142 with an larm 16S and 169. The` shaft 142 isV oscillatable in suitable bearings or journals 170 carried byA Athe 1upstanding intermediate posts 90` The sprocket 139,` see Fig. 5, has extending therearound a sprocket chain and 91 and it is beyond these bearings that the-arms` 168 and 169 are secured to the shaft 142. Loo'sely mounted on one end of the oscillatable shaft 142 1s a hub 171 having projecting from diametrical points armsy 172 and 173 and which hub is held against rotation by a linkage mechanism clearly illustrated in Figs. l, 6 and 7 and which linkage mechanism controls the position of the pickup head, particularly, at each end of its cycle of movement, and which pickup head is indicated in its entirety by the reference numeral 174.

It will be obvious that vertical reciprocation of the frame 149 through the sprocket chain 140 effects rotary or oscillatory movement of the shaft 142. Since the arms 168 and 169, as will presently be made clear, carry the transfer head mechanism which has some weight, the oscillation of the actuating shaft 142 is counter-balanced by springs 175 which have their one ends anchored to a stud 176 projecting from the upstanding intermediate post 90 with said springs having their other ends secured to the outer end of a finger 177 projecting from a collar 178 keyed or otherwise secured to the said actuating shaft 142, all as clearly illustrated in Figs. 4 and 5.

Carried by the outer ends of the arms 168 and 169 is the transfer head mechanism indicated, as noted above, in general, by the reference numeral 180, and which transfer head mechanism comprises a shaft 179 on which is mounted the transfer head, per se. The transfer or pickup head 180 is adapted to be oscillated relative to the shaft 179 wherefore the shaft 179 has oscillatably journaled thereon a sleeve 181 extending from one of the arms, arm 168, for example, to the said head 180 where the said sleeve 181 is secured to head block 182. The sleeve 181 adjacent the arm 168 has secured thereto a sprocket 183 which is in line with the hub 171 on the actuating shaft 142. Extending about said sprocket 183 is a sprocket chain 184 which extends toward the hub 171 for connection with the hub arms 172 and 173.

The connection of the sprocket chain 184 with the hub arms 172 and 173 is by way of a stud 185 at one end 186 of said chain, with hub arm 172 and the other end 187 of the sprocket chain 184 is through a stud 188, an expansible connector 189 and a stud 190, with the hub arm 172. As will be seen in Figs. 2 and 6, the stud connectors 185 and 190 are respectively integral with or suitably connected to a pivot member 191 and 192 and through which the said ends 186 and 187 of the sprocket chain 184 are pivotally connected through pivots 193 and 194 to said hub arms 172 and 173.

The hub arm 172 constitutes a part of the linkage mechanism which effects rotation of the hub 171, and in fact eects a rotation or oscillation of the transfer head with respect to its carrying shaft 179.

The said linkage comprises a clevis 195 pivotally carried by the lower end of hub arm 172 with said clevis having its other end connected to an expansible connector 196. The other end of the expansible connector 196 is connected with a second clevis 197 pivoted at 198 to a finger 199 offset from an arm 200. The arm 200 and its finger 199 bear the relationship of a U-shaped construction 201 at one end of said arm.

The arm 200 is pivoted intermediate its ends to an upstanding bracket 202 connected to intermediate post 91 by a spacer 203 and located on said post at a point just upwardly of the shelf or bracket 95. The other or inner end of the arm 200 has pivotally connected thereto through a pivot pin 204 a clevis 205 which is similar in Aall respects to the clevis 197. The clevis 205 has connected with its other end a compressible connector'or link 206 which is similar in al1 respects to the said connector or link 189 in the sprocket chain 184. The other end of the compressible connector or link 206 is connected with a clevis 207 in turn pivotally connected through pivot pin 208 with a lug 209 carried by and depending from trans- '.fer mechanism arm 168. j

. The compressible connectors or links 189 and 206 may comprising a cylindrical housing 210 closed at one end as at 211 and having threaded therein the stud` 212 of the clevis 207. The housing 210 encloses a springi 213 having one end in abutment with the closed end 211 and having its other end in abutment wtih a piston 214 interiorly of said sleeve 206 and carried by the stud 215 of the lclevis 20S.

From the foregoing, it will be noted that the arm 1681 may be actuated toward the arm 200 if said arm 200 is held against movement. Whereupon the spring 213 wouldbe compressed. coupling or connector 196 operates in a similar, though reversed, manner and has its spring compressed uponI the movement of the hub arm 172 toward the finger 199" when said finger 199 is held against movement.

The linkage arrangement and particularly the arm 200= is held against free movement for which purpose the pivot shaft 216, see Fig. 7, of the arm 200 is held against rotative movement between the bracket 202 and intermediate post 91 and the said pivot shaft 216 has keyed thereto a' clutch or brake member 217 yieldably actuated by a spring 218 toward the said arm 200. The arm 200 has secured to it through a sleeve 219 a complementary clutch or brake member 220 and carries on its face a suitable clutch or brake lining 221 for engagement with the clutch or brake member 217.

From the foregoing, it will be readily noted that the arm 200 is not free to oscillate on its pivot shaft but can oscillate under force substantial enough to overcome the brake tension exerted by the spring 218 on the brake lining 221.

It will be understood that since the arms 168 and 169 are secured to the actuating shaft 142, they oscillate with said shaft 142 and that through the linkage the hub 171 and its arms are actuated or oscillated independently of and while moving with said shaft and that the said linkage effects said hub oscillation at various rates as follows:

The upward movement of the arms 168 and 169, as seen in Fig. 6, through the link between the arm 168 and the arm 200 and including the compressible connector 206, oscillates the said arm 200 in a clock-wise direction and through the link between the nger 199 and the hub arm 172 and including the compressible connector 196 actuates the hub 171 and its arms 172 and ,173 in a counter-clockwise direction. This actuation of the hub 171 is in eifect a holding of said hub against any movement. This movement of the hub 171 correspondingly moves the sprocket chain 184 and actuates or oscillates the sleeve 181 and transfer head 180 in a counterclockwise direction even though the transfer head shaft 179 moves with the outer ends of the arms 168 and 169 and carries with it the sprocket 183. This movement of said sprocket 183 is eifected by, in effect, rolling thereof within the sprocket chain for correspondingly actuating the sleeve 181 and the transfer head 180. By this constrtuction the transfer head is caused to rotate or loscillate on the shaft 179 and at one end of its stroke to have a position wherein its axis is aligned with the axis of the setup mechanism-96 and when at the other end of its stroke the said transfer head axis is aligned with the axis of the magazine supply of knocked-down box blanks.

Due to the rotary or oscillatory movement of the transfer head with respect to both, the box setting-up mechanism and box blank supply magazine, the said transfer head axis is aligned with the setup mechanism axis and the magazine axis prior Yto actual contact of the transfer head with said mechanisms; wherefore, it is necessary that independent oscillation ofthe transfer head at each end of its transfer stroke be stopped and the said head moved through a path which maintains the aforementioned alignment of the axes.

Continuing with the operation of the transfer mechanism, and the upward movement of the transfer 'mecha- It should be noted that the expansible avan-15st nismarms '168 Jand :169.-unti1 the` .said transfer :headraxis and`magazineaxis arealigned. This, as notedabove,l occurs prior to contact of thetransfer head with the,

knocked-down box blank, andat this time the lower surface 222 of the arm 200 engages with the upper corner 202 of the bracket spacer 283 for thereby arresting further oscillation of the said arm 200 but not arresting the oscillation of the actuating shaft 142. This arresting of further movement of the arm 200 prevents limits and in effect stopfurther rotation or oscillation of the hub 171, hub arms 172 and 173 and movement of the sprocket chain 184.

lt will be noted that the attachment of the ends of the sprocket chain 184 with the hub arms 172 and 173 isat wider points than the diameter of the sprocket 183, wherefore, the actuation or oscillation of said hub 171, through the sprocket chain 184, causes the sprocket 183 and parts connected therewith to oscillate through a greater angular arc than that traveled by the said hub 171 and its arms 172 and 173. This arrangement of parts is what causes the transfer head to swing through an independent arc while also traveling through the arc.

of and with its supporting shaft 179 as effected by the arms 168 and 169. The arresting of the movement ofV the arm 200 Iby the 'bracket brace 203 has the effect of stopping the movement or oscillation of the hub 171 and its arms 172 and 173 and therefore stops the movement of the sprocket chain 184. This holding of the sprocket chain 184 and the continued movement of the arms 168 and `169 together with the movement of the shaft 179 causes the sprocket 183 and parts actuated thereby to be held against independent movement or oscillation and maintains the axis of the transfer head in a plane at a given angle to the axis of the carrying shaft 179 even though the said shaft continues to move with the arms 168 and 169 and, in effect, rotates within the sleeve 181` Therefore, the transfer head,

At this time, the transfer head picks up the innermost knocked-down box blank as will later be made clear. whereupon the transfer mechanism actuation is reversed. The first movement of the parts is through the extensible coupling 189 for withdrawing the transfer head directly from the magazine. Whereupon the parts are in position for oscillating the said transfer head to a position for eventual alignment with the set-up boX mechanism.

As was noted above, the oscillation of the transfer headV must be arrested and controlled upon the alignment of its axis with the axis through the set-up mechanism and which operation is effected through the arresting of the movement of the arm 200 in a manner quite similar to that above described. Specifically, the bracket spacer 203 has connected thereto, to project laterally thereof an arm 223 on which is positioned an abutment 224 for engagement with the undersurface 222 of the arm 200 as the be subsequently described` in detail.

arm moves in a counterclockwise direction. Upon engagement of the arm 200 with the abutment 224, the linkage mechanism is held against movement while the transfer arms 168 and 169 continues in a counterclockwiseV direction, the movement of the parts is taken up by the.

anism and actually positions the same with respect to the. operating elements of the box set-up mechanism as will subsequently be made clear. t

'rte-nsta-heas1. 1.o. andiamo the. blocklsz. basl.

12 a'.plate1.225,?.connectcdfwth `said, .block by means of ,pins` 2,26 and.227 which are slidably mounted inthe block182. Encircling each ofthepins 226 and 1227 isa spring, re, spectively..228 and, 229, each abutting onl its lowerend,

, with the plate 225 `and on its upper end with the block 182. To preventdisassociation` of the `parts the said pinsV 226and 227 `are each provided `at its upper end withyan enlarged head, respectively 230 and `231, disposed in counter-sinks 232 and 233. The plate 225 has an effec-` tive area substantially equal to the area of abox bottom panel,box bottom panel 35, for example and the knockeddowncartonsupply or magazine is positioned with respect to the machine so that the plate 225 is disposed accurately` with respect to the said bottom panel of the innermost` blank. In order that the said transfer head 180 through. its plate `225 will pick up the blank there is provided a` pneumatic suction device on the said transferhead.

The pneumatic suction device may` take any suitable or desirable form, that illustrated in the drawings `comprising, as seen in Fig.. 8, adjacent `the opposite endsof.`

the plate 225, a suctioncup 234 and 235each carried by a liexible carrier, respectively indicated in its entirety by reference numerals236 and 237. .lt will. be appreciated that the transfer head isV pushed `against the innermost blank ofthe supply with considerable force to make sure` that the `blank and transfer head are connected with one= another and since the said supply is relatively non-yield? able, the yieldableconnection between the plate 225 and, block 182 is provided by the springs 228. and 229 and a` yieldable connection is likewise provided in the suctioncup carrier .mechanisms 2361and 237.

In practice, the suction. cups 234 and 235 are connected with a pneumatic or suction pump, whereforerthe suction" cup 234 has extending 'from it aexible conduit 238whiler the suction cup 235 .hasextending from it a similarrexible conduit 239. The flexible conduits 238 and 239fea`clr` terminate in a port or duct 240 inthe transfer head block 182, with said duct 240 having connected therewith one end of a flexible conduit 241 which has its other end con-` nected `to a pneumatic control valve, indicated inV its en-` tirety by the reference numeral 242, see Fig. `4.

The controlvalve 242 contains a piston type valve 243 movable to two operative positions for alternately con` necting the'pneumatic suction pump with the transfer head or with the` boxforming mechanism and whichr valve will` It should be here noted, and as willv presently be made` clear, the suction pump whenconnected with the transfer head is simultaneou'sly connected twith a discharge head. l

A s wasnoted above, the transfer mechanism 93 and particularly the transferhead 188, transfers a knocked` down blank from the. magazineor supply to the setting` up mechanism 96. The setting-up mechanism, as noted above, is supported on the shelforbracket 9S carried by the cornerand intermediate upright posts 86-91. Up"

standing from said bracket `or shelf 95 and supporting the operating elements` for the end walls of the box, are opposed pairs of pillars 244 and 245 respectively support-V mg similar operating elements which respectively set up abox end wall, saidV mechanisms being respectively in`` dicated, in, general, by` reference numerals `Maand 247. Since said box end walls settingup mechanisms are substantially identical in construction and operation it is deemed sufficient if butone of them be describedi detail. l The mechanism 246 has its pillars 244 disposed on the uppersurface of a plate 2491 and secured thereto as'by welding and. which plate 249 is in turn'secured to a base plate 25()` removably secured to and carried bythe shelf or bracket 95. The removable base plate 258 .is secured to thev shelfy or `bracket 95 hy readily operable toggle clamps 251 and"252 at each end` thereof and which clamps will beV described in detail. ,l

The pillars 246 are provided with aligned apertures in whichiadisposedashaft'253. tozhave oscillatably mounted thereon, between the pillars, a sleeve 254. Secured tothe sleeve 254 is a tang or tongue 255 that is located between the pillars 246 to extend thereabove and has secured thereto the element which effects the raising or positioning of its box end wall. This element conveniently takes the form of a plate 256 of a length substantially equal to the length of the box end wall, particularly the end wall outer wall member, and the said plate has outwardly projecting from its upper end a ledge or linger 257. The plate 256 has a height, below the finger 257, that is substantially equal to the height of the box end wall, particularly the box end wall outer wall member.

Disposed on the pillars 246 and 247 is a table 258 on which the knocked-down box blank is disposed by the transfer head. The said knocked-down box is retained on the table 258 through any suitable or desirable means, preferably through a suction cup 258 which is substantially identical with the suction cups of the transfer head, wherefore, the suction` cup 258 is mounted on a exible carrier 259 from which extends a exible conduit 260. The exible conduit 260 has its other end connected with the valve mechanism 242.

Each of the box end wall raising mechanisms has projecting from its tang or tongue a furcated ear 261 having a pivotal connection with one end of an adjustable link 262. The adjustable link 262, see Fig. 14, comprises a rocker stud or shaft `263 having substantially midway of its length a threaded aperture 264 through which is threaded a rod 265 having at its other end an eye 266. The eye 266 is rotatably mounted on pivot pin 267 carried by the furcated upper end 268 of an oscillatable arm 269. The arm 269 is pivoted at its lower end by pivot 270 between the lower ends of pillars 246.

Intermediate its end, the arm 269 carries a cam follower in the form of a roller 271 disposed in a cam track 272 formed within the borders of a cam plate 273.

It should be noted that the knocked-down box blank end walloperating mechanism for the other end walls` includes a cam plate 274 which has its cam track of an opposite hand from that of cam plate 273.

The setting-up or erecting mechanism for the side Walls of the box is similar `to that above described for the end walls, there being a separate mechanism for each side wall, respectively indicated by reference numerals 275 and 276. Each of said side wall erecting mechanisms 275 and 276 includes a pair of pillars 277 and 278 and since the said erecting or setting-up mechanisms are substantially identical, it is deemed sufficient if but one of them be described in detail.

Accordingly, the side wall setting up or erecting mechanism 276, for example, comprises a shaft 279 carried by the pillars 278, at the upper ends thereof to have oscillatably mounted thereon, between the pillars, sleeve 280. The sleeve280 has secured thereto a tongue ortang 281 to extend there-above and the said tongue or tang 281 has secured thereto the element which effects the raising orpositioning of the box side wall. This element conveniently takes the form of a plate 282 of a length substantially equal to the length of the box side wall, particularly the side wall outer wall member, and the said plate has outwardly projecting from its upper end a ledge or finger 283. The plate 282 has a height, below'the nger 283, that is substantially equal to the height of the box side wall, particularly the box side wall outer wallk member.

The pillars 277 and 278 similar to the pillars 246 and 247 and in cooperation with said last named pillars, supports the table 258 on which the knocked-down box blank is disposed by the transfer head.

Each of the box side wall raising mechanisms has projecting from its tang or tongue a furcated ear 284 having a pivotal connection with one end of an adjustable link 285 which is similar in all respects to the adjustable link 262, above described and clearly disclosed in Fig. 14, the description of which may be referred to for the specific construction of the said'link 28S. The link 285 is connected with the furcated upper end 286 of an arm 287 pivotally mounted at 288 to the lower end of the pillars 289.

The arm 287 carries intermediate its ends, a cam follower or roller 290 disposed in a cam track 291 formed intermediate the borders of a cam plate 292. The box side raising or erecting mechanism 275 utilizes a similar cam plate 293 but has its cam track of an opposite hand to that in the cam plate 292.

The cam plates 273, 274, 292 and 293 are secured to the upper end of a vertically reciprocating ram 294 which has its upper portion formed to have an angular or square cross section and thereby provide seats 295, 296, 297 and 298, respectively for each of the said cam plates 273, 274, 292 and 293. The cam plates are each secured to its respective seat by a similar clamp bolt 299 which extends through its cam plate into the ram 294. In addition the said cam plates 273, 274, 292 and 293 are secured as a group between a clamp plate 300 at the upper end of the ram 294 and a shoulder 301 on the ram at the bottom of each cam plate seat. The ram 294 is removably secured to a ramrod 302, carried by a crosshead mechanism indicated in its entirety by the reference numeral 303 and which crosshead is similar to the transfer mechanism crosshead 150. The separable or removable connection between the ram 294 and ram rod 302 make take any suitable or desirable form that is shown in the drawings comprising a sleeve or socket member 304 secured in the lower end of the ram 294. The sleeve or socket member 304 has formed therein, at diametrically opposite points, a bayonet slot 305, see Fig. 11, which cooperates with the projecting ends of a transverse pin 306 at the upper end of the ramrod 302. The operation of a bayonet joint is believed Well understood and further description here is believed unnecessary.

The crosshead mechanism 303 comprises upstanding guide posts 307 and 308 extending between the bed and the shelf or bracket and on which guide posts are respectively disposed sleeves 309 and 310. The guide sleeves 309 and 310, similar to the guide sleeves 153 and 154, are each provided interiorly thereof with an anti-friction bearing 311 and said guide sleeves are connected with one another by a front strap plate 312 and a back strap plate 313, see Fig. 3. A connecting rod 314 has its upper end pivotally connected through a pin 315 with and between the crosshead plates 312 and 313 with said connecting rod 314 having its lower end journaled on a crank pin 316 projecting from a crank 317. The crank 317 has its other end keyed or otherwise secured to the output shaft or crank shaft 164 of the speed reducer 165.

Secured and upwardly extending from the crosshead connecting plates 312 and 313 is a pair of relatively short uprights 318 and 319 joined to one another by a cross tie 320 to which the lower end of the ramrod 302 is secured.

In practice, the cam plates 273, 274, 292 and 293 are vertically actuated and each through its cam track 272 or 291 operates on its respective cam follower 271 or 290 for oscillating the arms 269 and 287 which through the adjustable links 282 and 295 oscillate the tongues or tangs 255 and 281 for actuating the box walls erecting or raising mechanisms 246, 247, 275 and 276 from the solid line position of the right hand plate to the dotted line position thereof as illustrated in Fig. 10.

As was noted above, the box sides erectingor raisin-g mechanism 96 is carried by a removable basesplate 250 which is for 'the purpose of permitting a replacement of the box raising mechanism so that the machine may be adapted for different size boxes. The toggle clamps 251 and 252 are identical and each comprises a hanger of U-shape including a base member 321 from the ends of which project arms 322. The base 321 is provided with a notch 323 for straddling a depending clamp bolt V324 in an overhanging portion of theplate 250.A Aw

clamp glever 325 isdisposed within the clamp hangerand ispivotally mounted on a lug 326 routwardly projecting., from4 the shelf or bracket 95 and the said lever 325 has a pivotal connection at 327 with the clamp hanger. AnA operating linger 328 is secured to the lever 325 for completing the toggle clamp. It is believed that the operation of the toggle clamp is `obvious from Figs. and 16 but briey consists in operating the lever 325 about its pivotal connection with the lug 326 and which through the pivot 327 raises the clamp hanger base 321 to release the clamp bolt 324. Whereupon the said plate 250and parts carriedthereby are removable from the machine. Obviously, reverse actuation of the clamping lever 325 secures `the plate 250to the shelf or bracket 95.` Asdisclosed in the samples of boxes to be setup on the present machine, and as described above, the said boxes have at the ends of their side walls, tucking iiaps which` are to be disposed transversely of the bottom panels and enfolded by the end walls inner and outer wall members. These tucking flaps must be positioned, therefore, before `the said` end walls are completely. erected. Any suitable or desirable meansz may be em'- end attached toa linger344 projecting" froma collar,u

ployed for positioning said liaps, that shown in the drawings being found adequate and comprising` upstanding members at each end of either the side walls or the `end walls ,raising plates 256 or 282, Preferably, the said 'upstanding members are placed at the ends of the box side wallsraising plates 282 and are mounted in position by extending the shaft 279, of each sidewall raising plate to be beyondthe ends of said sidewalls raisingplates and have secured to each shaft extension a'block 329.` Each block 329 has an upstanding member, in the form of a finger, 330, secured thereto. By this construction there is Van upstanding member or linger 330 at each4 cornerof the box setting-up or erecting mechanism" 96 for lsimultaneously arranging or positioning the tucking aps at each corner of the box.

The box side and end walls raising mechanisms merely raise the outer wall members to be normal to thebox bottom panel which in connection ,withthe said walls `automatically positions theirv inner wall members and4 top wall members to be respectively normal to and par-I allel with the bottom panel. The end walls` must have their inner wall members folded inwardlyof the box or carton, This folding of the end walls inner wall members is initiated by the fingers 257 of the end wall erecting mechanisms 246 and 247. In other words, the portion of the end wall extensions beyond the .score or fold lines 59 in the' blank illustrated in Fig. 28, and the portions of thel end walls beyond the score or fold lines 75 in the blank illustrated in Fig. 31 are4 substantially immediately actuated toward a horizontal position upon engagement of said end walls extensions by' the said foldingmechanisms 222 `and 223 due to the fact that the said tongues engage said end walls extensions at points just beyond or above said score or fold lines 59 and 75. At this time the mechanismV illusx trated to the left of the box folding mechanism, in Fig. 1 and indicated in general by the reference numeral 94, is broughtinto operation as now will be made clear. The mechanism 94 may -be termed the` iinal `setup mechanism-and discharge mechanism and comprises .and is supported by the end or corner posts or uprights 88 and 89. The said mechanism 94, as mostclearly illustrated in detail in Figs. 1,` 2, 3 and 17 to 21, comprises ashaft 331 oscillatably mounted in bearings 332 and 333 `respectively lcarried by and outwardly projecting from the corner posts or standards 88 and 89. The shaft 331 has keyed or otherwise secured thereto, intermediate its ends, a sprocket 334 about which is trained a sprocket chain 335. The sprocket chain 335 in addition is trained or extends about a second sprocket 336 keyed or otherwise secured to a driving shaft 337. The driving shaft.337is oscillatably orirotatablymounted in bearings l 338 and 339 which downwardly projects from',l the under surface of the bracket or shelf 96 inwardly from: ,Y

the `corner posts `or standards 88 and ,89...

The Vshaft 337 is driven intimed relation withthwej mechanism actuates `the oscillating shaft of ,thetranfer mechanism as well as the oscillating shaft, of fthe linal setup and discharge mechanism.

The discharge mechanism shaft 331, similar` to the.,`

transfer mechanism shaft 179'is counter-balanced by` a` pair of counter-balancing springs` 343 which `have one 345 keyed or otherwise secured to thesaid shaft331,` and with1said springs having their other ends: secured to a stud 346 projecting from the corner postor ,stand-` ard 88. The counter-balance is desirable in this instance.;

since the discharge mechanism is `in the form `of a swinging frame oftheorder of `theframeof `the transfer.4

secured to the `ends of the oscillating shaft 331 withf` said arms carryingbetweentheir outer ends a shaft` 349 on which is mountedthe saidnal setup mechanism` and discharge mechanism which isin: the. form of `a` 350 on the shaft 349fs quite similar to theamounting `of the .transfer head `180 `on its supporting shaft and..

comprises a sleeve 351 loosely mounted on the shaft 349 between one arm, arm 347 for example,jand a block 352.

The block 352 is secured to` the sleeve 351 in any suit-` able or desirable manner so as `to partake of any rotary. or oscillatory movement given to said sleeve.; The con-` nection of the sleeve 351 and block 352 may` be by way of a collar or tiange 353` carried by the secured to the block 352.`

sleeve 351 and n head indicated in general bythe reference numeral 350.., The mounting of the final setup` and discharge` head.

The head 350 is to be maintained in a detinteangular l.

position with respect to the shaft 349 during `its move-I` ment between its final set up position and `its discharge position by meanssomewhat similarto the means which` operate on the mountingof the said transfer head ,l8 0 except that the final setup and vdischarge head 350 is.;`

not independently oscillated andin` fact is held; against any movement. This means includes a sprocket 354, see

Fig. 17, keyed `or otherwise secured' to the sleeve .351,1`

and said sprocket has trained therebout asprocket `chain 355. The sprocket chain 355 is,in turn, trained about` a sprocket 356 loosely journaled on theoscillatable shaft!A 331, see Fig; 39. The sprocket 356 is anchored against movement through an ear 357" depending from the sprocket 356 having `connected therewith one end ofzV a pin 358 and which-pin 358 has its other endrwelded. or otherwise secured tothe adjacent support1ng, standvard 89.

It will be understood that since, the arms `347. and 348` are secured to the actuatingor oscillatable shaft 331 they oscillate with said shaft 331,and.since,the sprocket` 356 is held against movement the sprocket chain .355

will be caused` totravelaround `thesad sprocket 356 and thereby rotate or oscillate` the sprocket, 354 and the;;

parts connected therewith, such` as, the sleeve 351 an d` the head 350 Yfor maintaining the saidqhead withits axis..

vertical during the movement thereof' between its discharging position and its `position ,for ,folding inwardly the end Ywalls inner wall members. j

The head 350includeszat `thejlower ,edgeof theblocu j 352 a beam 359 havingits oppositeends ,furcated and,`

17 of a link 360 and 361. The links360and 361 each has its other end respectivelypivotally connected with a bracket 362 and 363 inwardly projecting respectively from a plate 364v and 365. The plates.`364 and.365

Vare respectively secured to a sleeve 366 and 367vrespectively mounted on a shaft 368 and 369` that extend between depending side plates 370 and 371'at the ends of a carrier plate 372. Y y

The carrier plate 372 is located below. the head block 352 being maintained in operative position and association with the block 352 by pins 373 and 374 which are carried by and depend from the blockv 352. Encircling the pins 373 and 374 are sleeves 375 and 376 which upstand from the plate 372 but stop short of the under surface of the block 352. The sleeves 375 and 376 are for the purpose of limiting the movement of the plate 372 toward the block 352 and performing the function of box wall folding as will subsequently be made clear. In normal operation the plate 372 is yieldably maintained below the block 352 and this position'is established by an enlarged head 377, at the upper end of each of the pins 373 and 374 operating in a depression or counter-sink 378 let into the upper end of the block 352. This spacing of the parts is yieldablymaintained by expansion coil springs 379 and 380 respectively encircling the pins 373 and 374 and the associated sleeves. The carrier plate 372 inwardly of each of -its end or side plates 370 and 371 has depending therefrom a slide bracket 381 and 382 each having formed therein inwardly of its outer face, a dove tail guide-way 383 and 384. Mounted in each of the said dove tail guideways is a dove tail guide 385 and 386 respectively inwardly projecting from a slide 387 and 388.v Each of the slides has rotatably mounted at its lower end a roller 389 and 390, which has been conveniently formed asv a roller but need not take Athisspecific form as the funcf tions performed thereby are that of cams rather than rollers as presently will be made clear. Substantially midway of the length of each side plate 370 and371 there is provided inwardly projecting pins, there being two pins on each side plate, those for side plate 370 being indicated by reference numerals 391 and 392 while the pins from the side plate 371 are indicated by the reference numerals 393 and 394. Mounted on each of the said pins 391 and 394 is a similar member those on pins 393 and 394 being illustratedin cross-section in Fig. 20. Said members are indicated in the drawings by reference numerals 395, 396, 397 and 398 and each of said members is'provided at its upper end with a bored enlargement 399 through which it is mounted on its pin and from which enlargement depends a nger 400 that, in its normal position, terminates at about center of the roller or cam 389 or 390 located therebelow. The members 395 and 396 are yieldingly retainedl in their normal positions of having their lower ends in contact with the roller or cam 390 by a spring 401 which is substantially U-shaped and has its arms engaging with said members 395 and 396 below their enlargement 399. A similar U-shaped spring 402 is provided for the members 397 and 398. As seen in Fig. 20, the spacing of the upper or enlarged ends 399 of said members is less than the spacing between the out turned lower ends of their body portions. It will be noted that said body portions between their free outer ends and enlargements are outwardly arcuatelyformed.

The slides 387 and 388 Iare adapted to be actuated Side walls upwardly disposed and its end walls -havel 518 J'had .their outer'wall members similarly upwardly diszposed, .the portions of the end wall extensions beyond 'the score or fold line`59 is lying onltheside wall top wall members through the agency of the locking'lugs 66. .The downward movement of the head 350 causes the corners of the slides 387 and 388 to engage Vwith and depress the end walls inner and outer wall members rspacing flaps 65 of each 'end wall extension to a position. to downwardly extend with respect to the end walls inner members or panels-64. During the said bending of the spacer yllaps the end walls extension panels 64 .are retained in position on theside walls top wall members through the locking lugs 66 projecting therefrom. At Athisr time the head 350fis within the box sulciently tha-t the plat 364 and 365 are in contact with the inner edge of their respective end wall inner wall vmember and the said slides 387 and 388 are engaging the bottom panel of the box.v Continued downward movement of the head 350 causes the slides 387 and 388 to be Aactuated upwardly of their slide brackets, or toward the carrier platev 372, and at the same time the rollers or cams 389 and 390 moving upwardly with 'the slides, las respects the members 395-398 causes them to outwardly oscillate on their pins 391-394 against the (resistance of their springs 401 and 402. The members 4395--398are disposed below and, due to their-arcuate formation, engage the lower edgesof the end walls inner wall members, and, in fact, engage with the spacer aps for keeping them folded 'during thepositioning of the end walls inner wallvmembers.

When the slides 387 and 389 'reach-the=upper limit of travel 'as determined by the pin and slot 403, continued downward movement of the head assembly 350, particularly continued downward movementof -the block 352, causes the beam 359 through the links 3640 and 361 to oscillate the plates 364 and 365outwardl'y on their shaftsr356 and 357v and thereby force the end walls inner wall members to their operative positions, which is, adjacent to and parallel with the outer wall members. It will be understood that this positioning of the linner wall members is about the score or fold lines 60 and with the top wall members retained in position by the ends thereof resting on the side wall top wall members as well as resting on the spacer lugs 56 and 68 projecting respectively from the spacer ap and side walls inner wall members.

- At this time the end walls are completely and fully positioned with their inner wall' member locking lugs disposed in the side wall locking slots. The head 350 has reached its lowermost position and is about ready for withdrawal and return to its original position. 'At this timealso, the suction cup 404'carried by a bridging piece 405 between the slide brackets 381 and 382 engages with the bottom panel of the now setup box so' that withdrawal of the head 350 carries withpit the completed and setup box.

The suction cup 404, similar tothe suction cups above referred Vto and described, is mounted in a exible carrier 406 at the end of a pipe or conduit 407 which has connected to its vupper end a exible pipe or conduit 408 that terminates in the valve mechanism 242.

As was noted above, the'valve mechanism 242 is pro-- vided with a piston type valve 243 and as will be seen in Fig. 4 the said valve is disposed in a bore in a valve block 409 and has a pair of reduced portions 410 and 411. The valve 243 has two operative positions whereby its reduced portion 410 will connect a port 412 with a port 413 and whereby its reduced portion 411 will connect the said 412 with a port 414. Port 412 is an pneumatic suction pump, while the remaining ports 413 and .414 have respectively connected therewith the exthas connectedv therewith the'nal Vsetup head and dis# inlet port and is connected by a conduit 417 with af tn's motor 425- assenso @barge mechanism. In other swords,l 7it'fis withfthe .port nllihat; ,thetotherrendcof exible conduit 241` connects @and `.itriS lsostwith-ithisi'port 413: that: the totherf'endrbf thei-exiblerconduit408-connects unless the1said flexible s conduitf408 is connected directly .with the conduit :241, i and ,.it :.iswith fthe; port 414 that the other end :of .the ,exiblei;conduit260 is connected.

The valve I24?;is providedwwithan extension orevalve Astem 5418 iconveniently threaded throughout .itsdength to fr eoeive stops 419 and 420, fconveniently s in the xform @of rnutsythreaded on the threaded Yvalve stem, through .whichfthe valve Y243 isrshifted :toits operativeY positions.

Ifhe said operative ,positions t of the Vvalve :are determined the usual seats formed -in the said ivalve 243. The valve A243lis `Shiftcd-through a fvalveshifter 422 secured dto and operatedgby @the reciprocating fr-ame v149. y

,Asvwas noted labove,":thesuction` pumpis connected withthcptransferiheadat the time of its picking 1upa knocked-.down 4b oxgand is :disconnected therefrom 'at'.the

mechanism 247 in said Fig. 14. .Itfshouldfbefnotedthat `time theqsaidknockedfdown box is :disposedqon :the setup y: iiechgaliism 2table1258,*wherefore the -valve actuator 422 is monntedqontheiframe 149 so as -to shift the valve :as theiramegapproaches its opposite limits of reciproca'- tion and `which `is its positions when `picking `up :a i

knocked-down ybox from the-magazine or supply andlthe trained ,about Yapulley 416i on a counter shaft 415 and which counter-shaft carries a `second pulley 416' and about which second pulley 416 is trained the belt 1.67 for driving .the crank shaftior speed variator 165, as

:ati theetime tlieebrmE blank twas placedlon 'the'lsetting up mechanism table @258 ithe1 `uprightiirnenibeis or 5iingers at :the endsfof thefend :wllsls'etting upimechanism 246an`d 44247 fpositioned :the '.tucking aps of Elthe vknocked#down tbox `to "lbeztransversclyfof f-thef box bottom panel. Y `--,'1 `l1e1iinal'-settingfup :head `-and "erected box"rdischargin`g fmechanisrn. is driven `ii'n timed `relation 'iwith the transfer head and g driven from: the same mechanism-"alb asa'bove set. forth.V t tWherefo'eyias soon as fthe transfer l head has been withdrawn suciently from lthe delivered 'position, ,thedinal vsetup` and*"dischargeahead i350fof thetmechalinisnt 94 :isdnrpos'iton for entering the now L'partially ferected box. Thisihea'd B50 vtliroughsits` slides 4387 land 388 downwardly lturnfthe spacer 4itiaps of 1 the 'carton f end -Walls which movement of fthewhead 2350 continues until 'thersaidslidesi387-fand 388bottomfon thelcarton bottom .i panelfandgatwhich time :the saidrspac'erapsareat an inward anglefto the` end iwalls inner `-w`all Fmerribers;

Continuedpdownward movement to'f the head 350 causesthe slidesi38|71-and `388110 move upwardly relative to 4the slidebracleets' 381-=and`3821thereby oscillating members 400A outwardly or toward fthebo'x end` walls and therebyifguiding ffthel' spacer `iiz'ipsz to vtheir `positions beneath' the .end "walls inner 'wall fmer'nbers.l As` soon vas 4the @slides 1387 3; and 388 fhaveitreachedi the' limit jof their movement as 1 determined by the -pin ja'nd slot `403v the entire `head moveslagainst :the yieldinggresistan `of springs .6754 :and 376i `Theinlove'rnent lof :the head with respect to rits 'carrying-block 3`5i2-cavuses the "links 360 and 361 to outwardlyoscillateiplates 364 and 365 "which above s etforth.V It is believedthat the setting up of a i knocked-down boxsuch as disclosed in Figs. 28, 29 and 30 is obvious from thev foregoing but brieily the method is as follows:

`Asupply of knocked-down boxes 126 is placed inthe rnagaziofe` 92V andthe back up and feed plate mechanism 124 released yto force the said knocked-down boxes to the inneraend of said magazine as clearly illustrated in Fig. 1 whereupon the motors 42S and 426 are started for-'respectively actuating the counter-shaft or speed re`V ducer 165 andetfecting a suction pressure within lthe .pump 423. The `operation ofthe counter-shaft. 165 causes the cross-head 150, through thetlexible rack-or sprocket chain 140, to operate thetransfer mechanism 93 to dispose its pickup. head against the innermost knockedsdown boxof the supply. As soon asthe said pickup head` is properly positioned the valve shifter 422 i shifts the valve. 243 to the position opposite of that shownin the drawing` thereby connecting the pump 423 throughl the conduit 417 with the Vconduit 241 and the pickup head vfor connecting the said innermost knocked-down box with said head. n

'I'he said cross-head 15()` immediately reverses thereby" reversely actuating the transfer mechanism 93 to causel its` pickup head to move toV a position over and on the' forming mechanism table258. At this time the cross-V- head. 150 is atr itslower limit of movement whereupon` causing the said knocked-down boxto besecuredon the'V table 258.

at `this itimetarefin faceiicontactwith the end fwalls inner wall members` ffor:` shifting for forcingfsaid -end walls inner wall members 'toftheir operative positions. This "movementof .theiplates 364and 365` is limited bythe engagei ment of the sleeves i375 -and i376 with ^the under surface ofthe block 352;

At thistime all of the parts of the box setting up mechanism are in theirqnal positions, andthe transfer mech` i anism yhead93 `is `again positioned fin-front of the inner-` most knocked-down `box `of the magazine or supply 92 and the valve 243 is again shifted for disconnecting the suction pump/from the :setting jup mechanism and connecting thesame to the transfer` mechanism as well as connecting the suction pump with the iinal setup and.V

discharge .head `350. A fresh knocked-down box is thereby `connected with the transfer mechanism while the completed box is `now-connected with the suctioncup 404 of the discharge head 350.

Y The completedbox is nowdropped from tlie'setting upmechanismV for `discharge lfrom the machine 'either into 4a container or *onto a discharge :conveyor belt, neither 'of Awhich devicesg'is disclosed in the drawing'. i It will beappreciated' thatfthe knocked-downbox blank of Fig. 31 -is erected onset-'cup tliesame manner as that disclosed? iny Fig'.v 2`81by having `the lread 4slides 387 `and 388 engage the-'end1V wallsv `extensionsl at p'oints'fzat about the score fold gline76 therein. By this arrangement the terminal orV Creeper flaps 79 are not downwardlybent or folded withnrespect 'to their' end wall inner wall mcmbers buttV are causedtoassum'evan inwardgfupward angle whereby` they'fareY eventually' `brought into engagement with` the upper surfaceof the 'main to `bottom panel 35 and arranged initheir `iinal positions as `illustratedfin Pigna; y y L Upon final erection, the said box or carton is removed or discharged fromtheimachine by'tlie-head 350 asf above zsetrforth'. u .y 1L 

